Dextroamphetamine and tDCS to Improve the Fluency

Recruiting

Trial Description

The proposed study aims to evaluate safety and efficacy of combined dextroamphetamine (Dexedrine) and transcranial direct current stimulation with melodic intonation therapy for treatment of aphasia after stroke. The target population is patients with chronic speech deficits due to a left hemisphere non-hemorrhagic stroke. Findings from this proposed project will help in the design of future larger studies.The safety phase will use cross-over, placebo controlled and single-blinded design. 10 participants with post stroke chronic non-fluent aphasia will undergo two experiments. To study the safety and effect of combined dextroamphetamine, tDCS and MIT therapy the study will use a parallel-groups, randomized, sham and placebo controlled, and double-blinded design in which 48 participants with post stroke chronic non-fluent aphasia will be randomly assigned to receive either 1) dextroamphetamine therapy with active stimulation, 2) placebo medication with active stimulation, 3) dextroamphetamine therapy with sham stimulation or 4) placebo medication with sham stimulation for the same duration.

Detailed Description

The safety phase will use cross-over, placebo controlled and single-blinded design. 10 participants with post stroke chronic non-fluent aphasia will undergo two experiments. In the experiment 1, the subjects will receive 10 mg dextroamphetamine, 1.5 mA anodal tDCS to right inferior frontal gyrus (right Broca's area), and melodic intonation therapy. The two experiments of one time intervention will be separated by 1 week of washout and when the subjects come back for experiment 2, any later side effects will be evaluated. In the experiment 2, the subjects will receive placebo medication with anodal tDCS to right IFG (Broca's area) and melodic intonation therapy. During the experiments, thirty minutes before stimulation, participants in the active drug experiment (n=10) will take 10 mg dextroamphetamine per oral -experiment 1- and participants in the placebo drug experiment will take placebo pill per oral -experiment 2-. During the 20 minute stimulation phase, the participants (n=10) will receive anodal tDCS (1.5 mA) on ipsilesional right inferior frontal gyrus (Broca's area). All participants will simultaneously receive melodic intonation therapy for duration of an hour during and after 20 minutes of stimulation. To study the safety and effect of combined dextroamphetamine, tDCS and MIT therapy the study will use a parallel-groups, randomized, sham and placebo controlled, and double-blinded design in which 48 participants with post stroke chronic non-fluent aphasia will be randomly assigned to receive either 1) dextroamphetamine therapy with active stimulation, 2) placebo medication with active stimulation, 3) dextroamphetamine therapy with sham stimulation or 4) placebo medication with sham stimulation for the same duration. The subjects from the previous step of the study will be asked to participate to this step. Thirty minutes before stimulation participants in the active drug groups, group 1 (n=12) and group 3 (n=12) will take dextroamphetamine 10 mg per oral and participants in the placebo groups, group 2 (n=12) and group 4 (n=12) will take placebo pill per oral. During the 20 minute stimulation phase, the participants in the active stimulation groups, groups 1 (n=12) and 2 (n=12) will receive anodal tDCS (1.5 mA) on right inferior frontal gyrus (Broca's area), and participants in the sham control groups, group 3 (n=12) and group 4 (n=12) will receive sham stimulation. All participants will simultaneously receive melodic intonation therapy for duration of an hour during and after 20 minutes of stimulation. Treatment will be administered at an intensity of 5 sessions per week for 2 weeks.

Professionals

Education

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This project is supported in part by the NIH Specialized Programs of Translational Research in Acute Stroke (SPOTRIAS) Network, and NINDS grant 3P50NS055977 to Washington University in St. Louis School of Medicine and UT Southwestern Medical Center.